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What Yoga Therapists Should Know About the Anatomy of Breathing

Leslie Kaminoff and The Breathing Project, Inc.

Introduction

There are staggeringly vast numbers of people in this country suffering from

breathing related disorders; particularly when factoring in related maladies such as

hypertension, back pain and depression.

Not surprisingly, similarly large numbers of people are seeking out alternative

approaches to healing. A 2002 CDC study1 on Complementary and Alternative therapies

found that the most popular method of natural healing (other than prayer and nutritional

supplements) is deep breathing exercises, with 12 percent of the population practicing.

Another 8 percent of Americans say they practice meditation and 5 percent practice yoga

for natural healing. We can only expect that these numbers have increased significantly

in the past four years.

These trends indicate that for many millions of people, the way they breathe plays

a significant factor in disorders that affect their health, as well as providing the means to

restoring that health.

In terms of sheer numbers, no profession has a greater influence over the way

people are trained to breathe than yoga teachers, and the demand for our services has

increased exponentially over the past decade.

If yoga teachers have such an effect on how the public is trained to breathe, what

factors influence the way yoga teachers are trained to teach breathing? The key factor, it

seems, is tradition. Oft-repeated, outdated imagery along with inaccurate or unclear

anatomical and physiological information have persisted in teacher training programs for

half a century in spite of enormous advances in breath science.

Overview

In this article, I will summarize the four most common confusions about breathing that

1 U.S. Dept. of Health and Human Services: Complementary and Alternative Medicine Use Among Adults: United States, 2002. Advance Data No. 343. 20 pp. (PHS) 2004-1250 http://www.cdc.gov/nchs/pressroom/04news/adultsmedicine.htm

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have been compiled from a review of relevant literature.

The emerging field of Yoga Therapy offers its practitioners a singular opportunity

to provide the public with accurate and useful information about breathing. In order to

accomplish this, I will present basic definitions, anatomical information and analogies

that can help to dispel each of the common confusions that have surrounded breathing

methodology.

To conclude the article, I will summarize my anatomical information while

highlighting correlated principles from the Yoga Therapy tradition of T.Krishnamacharya

and T.K.V. Desikachar.

Four Common Confusions about Breathing

Last year, as part of my preparation for producing The Future of Breathing

symposium at Kripalu Center for Yoga and Health, I wanted to review and evaluate

traditional breathing information objectively. With the support of Kripalu, and the skilled

research of Danna Faulds, we conducted a review of the breathing-related source material

for the major Yoga teaching traditions. This survey revealed a number of flawed

assumptions and outright errors related to breathing and breath anatomy that have

remained both consistent and largely unchallenged through most of the history of Yoga

teaching in America. Most of this confusion can be classified into the following four

broad categories:

Confusion #1: Context dropping

This common error most often appears as either an explicit or implicit suggestion

that there is a right or proper way to breathe without stating the context that gives

rise to that breathing method. Context refers to the conditions unique to each individuals

history, condition and goals. Context also refers to activity and body position all of

which significantly affect breathing patterns.

Since individual intentions, body type, shape and orientation all create different

conditions for breathing, its clear that no one pattern could suffice to deal with all of

them. In other words, there is no one right way to breathe that will work under all

conditions, and implying that there is only encourages people to create breathing habits

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that make their systems less adaptable to change.

My simple, comprehensive definition of breathing as shape-change will help to

dispel this confusion, and clarify the context in which breathing patterns arise.

Confusion #2: False dichotomy between diaphragmatic, non-diaphragmatic

breathing

This error arises from the commonly stated bromide that belly breathing equals

correct diaphragmatic breathing, and chest breathing equals incorrect non-

diaphragmatic breathing. The idea that correct breathing involves the proper use of the

diaphragm is true enough, but to equate diaphragmatic breathing exclusively with

abdominal movement, and ribcage expansion with non-diaphragmatic (accessory)

breathing is incorrect, because the diaphragm is capable of creating chest as well as belly

movement.

This error arises from the lack of recognition that the diaphragm can mobilize the

ribcage without the aid of the accessory muscles, and it leads to teachers making the

seemingly helpful observation: Youre not using your diaphragm. Saying this to a non-

paralyzed person is essentially the same as telling them they are dead for it is the

rhythmic contraction of the diaphragm that is the tangible manifestation of Prana

expressing itself through a human form.

A corollary result of this confusion is that many students breathing patterns are

evaluated only by the location of shape change in the body, i.e.: belly breathing is good,

chest breathing is bad. In reality, it is possible for breathing to manifest as tense,

disordered belly movement, or relaxed, integrated chest movement. An excessive focus

on the region of shape change as an indicator of correct breathing can blind us to many

other, more relevant qualities of the breath.

My analysis of the 3-dimensional action of the diaphragms muscle fibers, and my

subsequent metaphor comparing the diaphragm to the engine of a car will help to clarify

this confusion.

Confusion #3: Confusion between respiratory shape changes and regional

ventilation

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Here is a passage from a book on pranayama by one the worlds most respected

teachers, but it could have come from any yoga book:

Respiration may be classified into four types:

High or clavicular breathing, where the relevant muscles in the neck mainly

activate the top parts of the lungs.

Intercostal or midbreathing, where only the central parts of the lungs are

activated.

Low or diaphragmatic breathing, where the lower portions of the lungs are

activated chiefly, while the top and central portions remain less active.

In total or pranayamic breathing, the entire lungs are used to their fullest

capacity.2

Here, the author speaks of lung activation, which could be interpreted correctly

(which is rare) or incorrectly (which is far more common).

The correct interpretation refers to the way lung tissue follows the ribcage and

diaphragmatic breath movements (see The Diaphragms Relations: Organic

Connections later in this article).

The incorrect interpretation of lung activation is to equate it with local air

movements in the upper, middle and lower portions of the lungs (regional ventilation).

Simply stated, this error results from confusion between the concept of breath and the

concept of air.

Air moves into and out of the lungs via the pathway of the bronchial tree. This

pathway is not affected by the sequence of shape change in the cavities of the chest and

abdomen. These differing breathing patterns refer to some of the ways in which we

manipulate the accessory breathing muscles in order to produce specific respiratory shape

changes, but that is not the same thing as isolating the ventilation in the corresponding

regions of the lungs.

In other words, contrary to what most teaching language implies, belly

breathing does not fill the base of the lungs, intercostal breathing does not fill the

middle of the lungs, and clavicular breathing does not fill the tops of the lungs.

Understanding that the accessory muscles steer the direction of the breath helps

2 Light on Pranayama, by B.K.S. Iyengar, (New York: Crossroad, 1981) p. 21

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to clarify this confusion.

Confusion #4: Deep Breathing and More Oxygen is always a good thing

To read many yoga and breathing books, one could get the impression that deep

breathing and oxygenation are the holy grails of health, well-being and enlightenment.

The assumption is that the more carbon dioxide you get rid of and the deeper you breathe,

the more oxygen you get in, and the healthier youll be. The fact is, not enough carbon

dioxide is dangerous, deep breathing is only occasionally appropriate, and too much

oxygen is toxic.

Breathing patterns should always be linked to your bodys metabolic needs.3 If

your level of activity requires a larger than usual supply of oxygen, deeper or more rapid

breathing is perfectly appropriate. Those same patterns of breath, however, if applied to a

resting state of metabolic activity would produce blood alkalosis (hyperventilation).

Your body has homeostatic mechanisms that prevent a toxic excess of oxygen

from building up in the tissues.4 The idea that one can improve health by increasing O2

concentrations in the blood is physiologically incorrect, and shouldnt be confused with

the immense relief that accompanies a deep, freeing breath pattern. In fact, freeing the

breath allows respiratory activity to more closely match body metabolism by releasing

excessive, oxygen-hungry tension from the breathing musculature.

Your body is many times more sensitive to changes in blood levels of carbon

dioxide than it is to oxygen. Carbon dioxide plays a critical role in helping hemoglobin

transport oxygen from your blood to your bodys tissues. If you dont have enough CO2

in your blood, the O2 gets held too tightly by the hemoglobin and not enough oxygen will

be released into your tissues. The idea that one can improve health by ridding oneself of

excess CO2 is physiologically incorrect, and shouldnt be confused with the simple act of

exhaling more effectively (which is a prerequisite for a deep inhale).

Understanding that healthy breathing is linked to metabolic activity and normal

CO2 levels will help to clarify some of these issues.

3 The Psychology and Physiology of Breathing by Robert Fried Ph.D. (New York: Plenum Press 1993) p. 34 4 ibid: Fried p. 29

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Dispelling Confusion: Simple Definitions, Anatomy and Imagery

Breathing Definition

The Oxford American Dictionary defines breathing as: the process of taking air

into and expelling it from the lungs. This is a good place to start, but lets define the

process being referred to.

Movement in the two cavities

A simplified image of the human body divides the torso into two

cavities, the thoracic and abdominal. These cavities share some

properties, and have important distinctions as well. Both contain vital

organs: the thoracic contains the heart and lungs; the abdominal contains

the stomach, liver, gall bladder, spleen, pancreas, small and large

intestines, kidneys, bladder, among others.

Both cavities are bounded posteriorly by the spine. Both open at

one end to the external environment - the thoracic at the top, and the

abdominal at the bottom. Both share an important structure, the

diaphragm - the roof of the abdominal cavity and the floor of the thoracic.

Another important shared property is that they are mobile they change shape. It

is this shape-changing ability that is most relevant to breathing, because without

movement, the body cannot breathe at all.

Change in the Abdominal Cavity: Shape, Not Volume

Although both the abdominal and thoracic cavities change shape, there is an

important structural difference in how they do so.

The abdominal cavity changes shape like a flexible fluid-filled structure such as a

water balloon. Think of what its like to hold a water balloon and imagine what happens

when you squeeze one end of it - the other end bulges. This is because water is non-

compressible. Your hands action only moves the fixed volume of water from one end of

the flexible container to the other. The same principle applies when the abdominal cavity

is compressed by the movements of breathing; a squeeze in one region produces a bulge

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in another. This is because in the context of breathing, the abdominal cavity changes

shape, but not volume.

In context of life processes other than breathing, the abdominal cavity does

change volume. If you drink a gallon of liquid or eat a big meal, the overall volume of

the abdominal cavity will increase due to expanded abdominal organs (stomach,

intestines, bladder). Its useful to note that any increase of volume in the abdominal

cavity will tend to produce a corresponding decrease in the volume of the thoracic cavity.

This is why its harder to breathe after a big meal, before a big bowel movement, or when

pregnant.

Change in the Thoracic Cavity: Shape And Volume

In contrast to the abdominal cavity, the thoracic changes both shape and volume;

it behaves like a flexible gas-filled container, similar to an accordion bellows. When you

squeeze an accordion, you create

a reduction in the volume of the

bellows and air is forced out, and

when you pull the bellows open,

its volume increases and the air is

pulled in. This is because the

accordion is compressible and

expandable. The same is true of

the thoracic cavity, which -

unlike the abdominal cavity and

its contents - can change its

shape and volume.

To sum up the distinction

between the two cavities as

regards breathing: the abdominal cavity changes shape but not volume, and the thoracic

cavity changes shape and volume.

Volume and Pressure

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As in the example of an accordion bellows, volume changes in the thoracic cavity

result in movement of air. Volume and pressure are inversely related -- when volume

increases, pressure decreases, and when volume decreases, pressure increases. Since air

always flows towards areas of lower pressure, increasing the volume inside an accordion

- or the thoracic cavity - will decrease pressure and cause air to flow into it. This is an

inhale.

Pressure/Volume Shift and Shape Change

Lets now imagine the thoracic and abdominal cavities as an accordion stacked on

top of a water balloon; movement in one will necessarily result in movement in the other.

Recall that during an inhale, the thoracic cavity expands its volume. This pushes

downward on the abdominal cavity, which changes shape as a result of the pressure from

above.

During relaxed, quiet breathing (such as while sleeping) an exhale is a passive

reversal of this process. The thoracic cavity and lung tissue - which have been stretched

open during the inhale - spring back to their initial volume, pushing the air out and

returning the abdominal cavity to its previous shape. This is referred to as a passive

recoil. Its important to note that any reduction in the elasticity of these tissues will

result in a reduction of the bodys ability to exhale passively leading to an increase of

muscular breath effort and a host of respiratory problems.

In breathing that involves active exhaling (such as blowing out candles, speaking,

singing, as well as various Yoga exercises), the musculature surrounding the two cavities

contracts in such a way that the abdominal cavity is pushed upward into the thoracic, or

the thoracic is pushed downward into the abdominal, or any combination of the two.

An Expanded Definition of Breathing

Heres our expanded definition of breathing:

Breathing is the intaking and expelling of air in the lungs, caused by

changing the shape of the thoracic and abdominal cavities.

Defining breathing this way not only tells us what it is, but how we do it. This has

profound implications for Yoga practice, as it can lead us to examine the supporting,

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shape changing structure that occupies the back of the bodys two primary cavities - the

spine. This is why breathing and spinal movement are so intimately connected: flexion

of the spine IS the shape change that reduces thoracic volume (exhale) and spinal

extension IS the shape change that increases thoracic volume (inhale).

Additionally, as we shall soon see, the musculature of the breathing mechanism IS

the musculature of postural support.

Answer to Confusion #1: Breathing Occurs in a Context

Gravity, posture, activity, habit, intention are just some of the factors that affect

the shape-changing activities of the body cavities (breathing). To imply that there is one

correct pattern of shape-changing (such as belly bulging) is to divorce breathing from the

reality in which it occurs: individual human bodies engaging in an infinite number of

activities on a planet with a gravitational field.

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The goal of breath training is to free up the system from habitual, dysfunctional

restrictions -- and the first thing we need to free the breath from is the idea that theres a

single right way to do it. Integrated breathing means that the breathing mechanism is

able to freely respond to the demands that we place on it in the wide variety of positions

and activities that comprise our daily lives.

Breathing Shape Change is Three-Dimensional

The lungs occupy a 3-dimensional space in the thoracic cavity, and when this

space changes shape to cause air movement, it changes shape 3-dimensionally.

Specifically, an inhale involves the chest cavity increasing its volume from top-to-

bottom, from side-to-side and from front-to-back, and an exhale involves a reduction of

volume in those same three dimensions.

Because thoracic shape change is inextricably linked to abdominal shape change,

we can also say that the abdominal cavity changes shape (not volume) in three

dimensions it can be pushed or pulled from top-to-bottom, from side-to-side or from

front-to-back. In a living, breathing body, there can be no thoracic shape change without

abdominal shape change. This is why the condition of the abdominal region has such an

influence on the quality of our breathing, and why the quality of our breathing has a

powerful effect on the health of our abdominal organs.

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In order to understand how a single muscle the diaphragm - is capable of

producing all this movement (its actions), it is necessary to understand its definition,

location, shape attachments and relations.

The Diaphragm a definition

Just about every anatomy book describes the diaphragm as the principal muscle of

breathing. Lets use our expanded definition of breathing, along with our 3-D

observation, to get a better understanding of this remarkable muscle:

The diaphragm is the principal muscle that causes three dimensional shape

change in the thoracic and abdominal cavities.

The Diaphragm location

The diaphragm divides the torso into the thoracic and abdominal cavities. It is the

floor of the thoracic cavity and the roof of the abdominal cavity. Its structure extends

through a wide section of the body the uppermost part reaches the space between the

third and fourth ribs, and its lowest fibers attach to the front of the third lumbar vertebra;

nipple to navel is one way I describe it.

The Diaphragm Shape

The deeply domed shape of

the diaphragm has evoked many

images: jellyfish, parachute, helmet

or mushroom. Its important to note

that the shape of the diaphragm is

created by the organs it encloses and

supports. Deprived of its relationship

with those organs, its dome would

collapse, much like a stocking cap

without a head in it.

It is also evident that the

diaphragm has an asymmetrical

double-domed shape, with the right

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dome rising higher than the left. This is because the liver pushes up from below the right

dome, and the heart pushes down from above the left dome.

The Diaphragms Attachments Origin and Insertion

Origin: The lower edges of the diaphragms circumference originate from three

distinct regions: the bottom of the sternum, the base of the ribcage, and the front of the

lower spine. These three regions form a continuous rim of attachment for the diaphragm,

and the only bony components of this rim are the back of the xiphoid process and the

front surfaces of the first three lumbar vertebrae. The majority of the diaphragm (over

90%) originates on flexible tissue: the costal cartilage of ribs 6 thru 10 and the arcuate

ligaments which bridge the span from the 10th ribs cartilage to the floating 11th and 12th

ribs, and from there to the spine.

Insertion: All the muscular fibers of the diaphragm rise upward in the body from

their origins. They eventually arrive at the flattened, horizontal top of the muscle, the

central tendon, into which they insert. In essence, the diaphragm inserts onto itself its

own central tendon, which is fibrous non-contractile tissue.

The Diaphragms Relations: Organic Connections

The central tendon of the diaphragm is a point of anchorage for the connective

tissue that surrounds the thoracic and abdominal organs. The names of these important

structures are easily remembered as the Three Ps.

Pleura which surround the lungs

Pericardium which surrounds the heart

Peritoneum which surrounds the abdominal organs

Every organ has a membrane that tightly enwraps it, called the visceral

membrane. Outside of the visceral is another layer that anchors the organ to the body.

This outer membrane is the parietal membrane.

It is the parietal membranes that attach the organs to the diaphragm and the inner

surfaces of the thoracic and abdominal cavities. Thus, it should be clear that the shape

changing activity of these cavities has a profound effect on the movements of the organs

they contain. The diaphragm is the primary source of these movements, and the

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relationship of its healthy functioning to the wellbeing of the organs is abundantly

evident.

The Diaphragms Action: Basics

It is important to remember

that the muscular fibers of the

diaphragm are oriented primarily

along the vertical (up-down) axis of

the body, and this is the direction of

its muscular action. Recall that the

horizontal central tendon is non-

contractile, and can move only in

response to the contraction of the

muscular fibers, which insert onto it.

Like any other muscle, the

contracting fibers of the diaphragm

pull its insertion and origin (the central tendon and the base of the ribcage) towards each

other. It is this action that is the fundamental cause of the three dimensional thoraco-

abdominal shape changes of breathing.

As with any muscle contraction of the body, the movement it produces is a

question of whether origin moves towards insertion, or insertion towards origin. Stated

simply, this will depend upon which end of the muscle is stable, and which is mobile.

The Diaphragms Action: Origin/Insertion - Stable/Mobile

The muscular action of the diaphragm is usually associated with a bulging5

movement in the upper abdomen, which is commonly referred to as a Belly Breath, but

this is only the case if the diaphragms origin (the base of the ribcage) is stable, and its

insertion (the central tendon) is mobile.

5 Even though most teachers refer to this diaphragmatic action as an expansion of the abdomen, this is incorrect. In the context of breathing, the abdominal cavity does not change volume only shape; therefore it is more accurate to refer to this movement as a bulging of the upper abdomen for the same reason we would say a water balloon is bulging when we squeeze one end of it.

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If the central tendon is stabilized, and the ribs are free to move, a diaphragmatic

contraction will cause an expansion of the ribcage6. This is a chest breath, which

many people believe must be caused by the action of muscles other than the diaphragm.

This mistaken idea can create a false dichotomy between diaphragmatic and non-

diaphragmatic breathing. The unfortunate result of this error is that many people

receiving breath training who exhibit chest movement (rather than belly movement) are

told that they are not using their diaphragm, which is false. Except in cases of paralysis,

the diaphragm is always used for breathing. The issue is whether it is being used

efficiently or not.

If it were possible to release all of the diaphragm's stabilizing muscles, and allow

its origin and insertion to freely move towards each other, both the chest and abdomen

would move simultaneously. This rarely occurs, as the need to stabilize the body's mass

in gravity will cause many of the respiratory stabilizing muscles (which are also postural

muscles) to remain active through all phases of breathing.7

The recognition that the diaphragm can mobilize the ribcage without the aid of the

accessory muscles is a key element to understanding the integrated nature of breathing

practices in yoga especially the bandhas. It is the singular action of the diaphragm that

is the prime mover of the thoracic and abdominal cavities. The specific patterns that arise

6 This is what happens during inhale while correctly applying Mula Bandha. 7 This also explains why babies breath goes everywhere: they arent standing up yet!

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in Yoga asana, bandha or breathing practices result from the action of muscles other than

the diaphragm that can change the shape of the cavities: the accessory muscles. In order

to better understand this principle, the analogy of a car and its engine is very useful.

Answer to Confusion #2: The Diaphragm is the Engine of 3-D Shape Change

The engine is the prime mover of the car. All the movements that contribute to a

cars functioning are generated by the engine. In the same manner, the three dimensional,

abdomino-thoracic shape change of breathing is primarily generated by the diaphragm.

To say that diaphragmatic action is limited to the abdominal bulging commonly

referred to as belly breathing is as inaccurate as asserting that a cars engine is only

capable of making it go forward and that there must be some other source of power that

governs reverse movement. Just as this automotive error is linked to not understanding

the relationship of the cars engine to its transmission, the breathing error is linked to not

understanding the relationship of the diaphragm to the accessory muscles.

Moreover, equating belly movement with proper breathing and chest movement

with improper breathing is just as silly as stating that a car is best served by only driving

forward at all times. Without the ability to reverse its movements, a car would eventually

end up someplace it couldnt get out of.

Answer to Confusion #3: The Accessory Muscles Steer the Breath not the Air

Since the diaphragm, in an

unobstructed state, will create 3-D shape

change in the thorax and abdomen,

intentionally isolating the breath in one

dimension requires us to block the other

dimensions of movement. I like to refer to

this as steering the breath.

We dont steer our car with its

engine. In order to control the power of the

engine, and guide it in a particular

direction, we need the mechanisms of the

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transmission, brakes, steering and suspension.

In the very same way, we dont steer our breathing with the diaphragm. As

with a cars engine, all we directly control

about the diaphragm is the speed/timing of

its function. In order to control the power

of the breath, and guide it into specific

patterns, we need the assistance of the

accessory muscles the muscles other than

the diaphragm that change the shape of our

thoracic and abdominal cavities.

The accessory breathing muscles

include the abdominal group, intercostal

group, sternocleidomastoids, scalenes,

pectoralis minor, serratus anterior, and a

host of other muscles that stabilize them.

It is important to note that what we

are steering with the accessory muscles is

BREATH (shape-change), not AIR. Just

because a particular region of the chest is

moving more than another does not mean

that there is more air going into the lung just beneath that

movement. 8. A look at the structure of the bronchial tree

will reveal the pathway of lung tissue ventilation. This is not

altered by the pattern of abdomino/thoracic shape-change.

Its understandable that we make this error, because

we dont have direct sensory awareness of lung tissue, but

do we have direct feedback from the breathing musculature

thus, its easy to confuse one with the other.

8 This is referring to what occurs in a single breath, which is a distinct issue from the chronic constrictions in lung tissue due to injury, disease, or habit all of which can affect the elasticity of the lung, and thus its ability to expand fully.

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Answer to Confusion #4: Healthy Breathing is Linked to Activity and CO2 Levels

The shape, depth, rhythm and volume of our breath is a reflection of our habits,

training, intentions, body position and state of mind to name just few of the myriad

factors that influence our breathing.

Faulty concepts about the breath can also be a significant source of breathing

difficulties, and I frequently encounter this in my Yoga Therapy practice. One of the

most common patterns I observe is the trained yogis tendency to do deep, slow Ujayyi

breathing even when lying supine on a treatment table. Since this pattern is associated

with vertical postural support, I usually ask why they are doing Ujayyi in a context where

horizontal release is more appropriate. The usual reply that they dodnt even know they

are doing it, and they find it difficult to release the pattern even after several attempts.

This pattern (among many others) is linked to a pervasive assumption in the Yoga

world that breathing should ALWAYS be deep and full. This single absurdity is perhaps

responsible for more dysfunction than any other Ive encountered. As you read these

words, quickly check your breathing. Is it deep or shallow? Unless you are reading this

journal while taking a walk, or exercising on a treadmill, the answer should be quiet and

relaxed9. This is because your body is at rest, and doesnt require a huge supply of

oxygen to fuel the minimal metabolic activity of sitting and reading.

Yes, in Yoga we train ourselves to breathe deeply, and in a variety of unusual

patterns, but this is only for the purpose of exploring the full potential of our breathing

mechanisms in order to uncover and dismantle habitual patterns that obstruct normal

function.

In other words, the end goal of practicing Pranayama (unusual breath patterns) is

to achieve normal breathing (during those times when were not doing specific, conscious

breath exercises). Normal breathing, in the physiological sense, means that our everyday

respiratory activity is consistent with our metabolic requirements. Since our metabolism

changes with activity, so must our breathing patterns. Any inability of our breathing to

accommodate changing conditions is, by definition, disordered breathing.

Breathing authority Dr. Robert Fried links the idea of normal breathing to tidal

volume and breathing rate:

9 If , at rest, your breathing isnt quiet, it may indicate a state of anxiety, or a metabolic imbalance.

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The volume of air entering the lungs with each inspiration and expiration

cycle is called tidal volume. The minute-ventilation of the lings is tidal volume

per minute. Changes in minute-volume always reflect changes in metabolism

in a healthy individual. High minute-volume reflects increased activity such as

running, while low minute-volume reflects a low level of activity such as rest.

In a healthy individual, breathing rate usually follows minute-volume. Rapid

breathing accompanies a high minute-volume, while slower breathing goes

with a lower minute-volume.10

This relationship between the rate and volume of breathing is so tightly tied to

metabolism that it is possible to predict the weight of a healthy individual at rest by

measuring their minute-volume. After all, weight is an indicator of how many cells that

person has to oxygenate on a moment-to-moment basis, and minute-volume is a measure

of what the body is doing to provide that oxygen. Dr. Fried continues:

Thats whyinexplicably rapid or slow breathing, or high or low minute-

volume, can indicate trouble and can also cause it[it tells] us that the body is

compensating for something unusual...11

From this perspective, the notion of taking deep, slow breaths at all times is

revealed to be a recipe for metabolic mayhem. Similarly, the oft-repeated generalization

that Yogic breathing is supposed to maximize oxygen intake and carbon dioxide

elimination is just as flawed.

If we were truly able to accomplish this feat, then all Yogic breathing would, by

definition, be hyperventilation that is, the physiological state in which the blood

contains too much oxygen and not enough carbon dioxide. This occurs when we blow

off CO2 -- in other words, our breathing rate/volume is eliminating carbon dioxide from

our system faster than it is being produced by our metabolism.

Why is this such a problem? After all, isnt CO2 a waste gas? If its waste,

shouldnt we get rid of as much of it as we can, so more of the fresh, healthy oxygen can

come in and nourish our system?

10 Breathe Well, Be Well by Robert Fried, Ph.D: .John Wiley and Sons, 1999 p. 24 11 ibid. p. 24

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Well, its not that simplistic. It turns out that oxygen, as important as it is, is toxic

to the body in excess. It will literally burn (oxidize) tissue if not buffered by the bodys

protective mechanisms. And what of the waste gas carbon dioxide? It just so happens

that the entire process of respiration is driven by CO2 from the impulse that brings air

into the body, to the chemical balancing act that delivers oxygen to our tissues, carbon

dioxide is a critical player from beginning to end.

Take a relaxed breathexhale comfortablyand wait.

Keep waiting

What you are felling is a rise in blood CO2 that eventually signals your brains

respiratory center to send an electrical impulse through the phrenic nerve to contract your

diaphragm. It is also the presence of CO2 in your blood that allows the hemoglobin to

transport the oxygen from your blood into all your bodys tissues.

When weve blown off too much CO2, our bloods acid-base balance is thrown

into excessive alkalinity. When this happens, the hemoglobin holds too tightly onto the

oxygen molecules, and doesnt release them into the bodys tissues. So, even if we could

maximize CO2 loss and O2 gain, this effect could only go as far as the bloodstream

where the oxygen will remain undelivered, bound to the hemoglobin. From this

perspective, hyperventilation is a paradoxical state in which theres too much oxygen in

the bodys bloodstream, but not enough in its tissues.12

Its interesting to note that hyperventilation refers to the chemical condition of the

blood, not to a particular pattern of rapid or shallow breathing. It is just as possible to

hyperventilate while breathing slowly and deeply as it is while breathing rapidly and

shallowly. The only requirement is that the minute-volume exceeds the bodys ability to

replace the CO2 thats being blown off.

In light of this anatomical reality, the seemingly innocent Yoga instruction to get

rid of as much carbon dioxide as possible, so we can maximize oxygen intake doesnt

seem so innocent. Better teaching language would refer to normalizing levels of O2 and

CO2 in the body.

12 This is precisely why people who are having panic attacks are often advised to breathe into paper bags; the intention is to effect a sudden rise in blood CO2 which has been depleted through rapid breathing.

20

Summary and Perspective

Beyond uncovering the misconceptions that have seeped into our modern

understanding of Yoga, a deeper look into the anatomy and physiology of breathing can

also reveal the profound wisdom of our ancient tradition.

In the Yoga Therapy tradition of my teacher, T.K.V. Desikachar and his father T.

Krishnamacharya, there are many hallmarks of a deep understanding of the anatomical

principles under discussion here.

Krishnamacharyas dictum to always adapt the practice to the individual is a clear

reference to the principle that Yoga techniques of breath and posture always occur in a

context. To drop this context (confusion #1) is to run the risk of doing more harm than

good by the misapplication of the powerful tools of Yoga Therapy.

Krishnamacharya also insisted that there is only one animating principle in the

human system; the life-energy that manifests as our breath -- Prana. He asserted that

Kundalini, rather than being a positive force, is an obstruction to Prana. This stands in

distinction to other schools, in which Kundalini is viewed as a separate form of dormant

spiritual energy, which creates a dichotomy between the earthly pranas that animate

our physical bodies and the spiritual Kundalini that liberates our spirit.

This is reminiscent of the observation that the movement of the diaphragm is the

physical manifestation of Prana in the body, and that there is only one form of breathing

diaphragmatic; not the correct/incorrect, belly/chest, diaphragmatic/non-diaphragmatic

dichotomies perpetuated by most other approaches to breathing (confusion #2).

One of the most distinctive features of the Desikachar/Krishnamacharya lineage is

the top-to-bottom breath that encourages the expanding inhale to proceed from the

upper reaches of the thorax in a downward direction towards the abdomen. In the past,

this used to be referred to as upside-down breathing by other traditions that taught their

students to fill the lungs from the bottom to the top.

Once the anatomy of the bronchial tree is clearly grasped, it becomes clear that it

is impossible to fill the lungs from the bottom to the top (confusion #3), and that the top-

21

to-bottom method is simply linking the

shape-change of breathing to the direction of

airflow into the body. This orientation to the

breath also links the flow of repiratory

movements and spinal support with the

deeper concepts of prana and apana.

Finally, by placing the breath at the

core of asana, pranayama and meditation

practice, the Krishnamacharya/Desikachar

lineage hands us the ultimate tool for both effecting change and gathering feedback about

the deepest levels of our systems function. By honoring the breath as our ultimate

teacher and guide, we will be able to balance our physiology with our Yoga practice. The

focus on the breath enables us to detect subtle changes and make minute adjustments that

may be missed if we dont keep our breathing patterns integrated with our activities.

(confusion #4). It is my hope that this brief excursion into anatomical issues related to breathing will stimulate an ongoing dialogue which in turn can lead to improved methods of

education in Yoga Therapy training programs.

--------------------------------------

Leslie Kaminoff is a yoga therapist inspired by the tradition of T.K.V.

Desikachar. He is an Internationally recognized specialist with over twenty six years

experience in the fields of yoga, breath anatomy and bodywork. He has led workshops for

many of the leading yoga associations, schools and training programs in America.

Leslie currently practices yoga therapy in New York City and Great Barrington,

Massachusetts. He is the founder of the yoga list, e-Sutra, and The Breathing Project,

a non-profit New York City organization dedicated to the teaching of individualized,

breath-centered yoga practice and therapy. Leslie teaches The Breathing Project's unique

year-long course in yoga anatomy, and is currently writing the book, Yoga Anatomy

for the publishers Human Kinetics - scheduled for release in November of 2006.

Leslies personal website is www.yogaanatomy.org

This article contains material that is more fully explored in Leslie Kaminoffs book Yoga

Anatomy published by Human Kinetics in November of 2006. The title of this piece is

taken from a presentation that the author is scheduled to deliver at IAYTs SYTAR

conference in January of 2007.